1 edition of Mathematical Models in Electrical Circuits: Theory and Applications found in the catalog.
|Statement||by C.A. Marinov, P. Neittaanmäki|
|Series||Mathematics and Its Applications -- 66, Mathematics and Its Applications -- 66.|
|The Physical Object|
|Format||[electronic resource] /|
|Pagination||1 online resource (176 pages).|
|Number of Pages||176|
electrical specification is reasonable and feasible. The following text is designed to provide an efficient introduction to electronic circuit design. The text is divided into two parts. Part I is a barebones introduction to basic electronic theory while Part II is designed to be a practical manual for designing. Electric circuits are used in numerous electrical systems to accom-plish different tasks. Our objective in this book is not the study of various uses and applications of circuits. Rather, our major concern is the analysis of the circuits. By the analysis of a circuit, we mean a study of the behavior of the circuit: How does it respond to a.
The text presents a unifying picture inherent to the study and analysis of more than 20 distinct models spanning disciplines such as physics, engineering, and finance. Topics include set algebra, functions, sequences, springs, and electrical circuits. MATLAB and Wavelet Toolbox are used to solve numerous examples in the book. In addition, a. Electric Machines Theory An electrical machine is just a device that can either transform mechanical energy into electrical energy or vice versa. When such a device is used to convert mechanical energy to electrical energy, it is called a generator and the other way around When machines convert electrical energy into mechanical energy, it is.
This chapter deals with power systems reliability including technical, economical, and decisional aspects. Knowing that almost 90% of failures occur in the distribution systems, great interest was dedicated to this part of the system, and the first work was oriented to reliability indices defined as objectives to attempt and as performance measures in the electricity by: 2. Physical models derive from the geometry and materials of the actual system or device. Most engineering problems center around physical items, like a beam or some vibrating element. In ECE, these vibrations are in the energy states of the electrons. These models .
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Mathematical Models in Electrical Circuits: Theory and Applications (Mathematics and Its Applications) [Marinov, C. A., Neittaanmäki, Pekka] on *FREE* shipping on qualifying offers.
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USD ℓ p-solutions of countable infinite systems of equations and applications to electrical circuits. Mathematical Models in Electrical Circuits: Theory and Applications C. Marinov, Pekka Neittaanmäki Springer Science & Business Media, - Technology & Engineering - pages. Get this from a library.
Mathematical models in electrical circuits: theory and applications. [C A Marinov; P Neittaanmäki]. Mathematical Models in Electrical Circuits: Theory and Applications (Mathematics and Its Applications) Hardcover – 30 September by C.
Marinov (Author) › Visit Amazon's C. Marinov Page. Find all the books, read about the author, and more. See search results for this author. C Author: C. Marinov, Pekka Neittaanmäki.
Get this from a library. Mathematical Models in Electrical Circuits: Theory and Applications. [C A Marinov; P Neittaanmäki] -- One service mathematics has rendered the 'Et moi si favait su comment en revenir, je n'y seTais point alle.' human race.
It has put common sense back Jules Verne where it belongs. on the topmost. Complementarity and Variational Inequalities in Electronics evaluates the main mathematical models relevant to the study of electrical network problems involving devices.
The book focuses on complementarity problems, variational inequalities and non-regular dynamical systems which are well-known for their applications in mechanics and economics.
THE ELECTRICAL ENGINEERING SERIES (3 book series) (3 book series). Marinov C.A., Neittaanmäki P. () Numerical approximation of mixed models for digital integrated circuits. In: Mathematical Models in Electrical Circuits: Theory and Applications.
Mathematics and Its Applications, vol Author: C. Marinov, P. Neittaanmäki. Mathematical Foundations for Linear Circuits and Systems in Engineering is written for upper undergraduate and first-year graduate students in the fields of electrical and mechanical engineering.
This book is also a reference for electrical, mechanical. Krishnaiyan Thulasiraman, in The Electrical Engineering Handbook, Circuit theory is an important and perhaps the oldest branch of electrical engineering.
A circuit is an interconnection of electrical elements. These include passive elements, such as resistances, capacitances, and inductances, as well as active elements and sources (or excitations).
Samir Adly received a master's degree in Mathematical Engineering () and a Ph.D. in Applied Mathematics () from the University of Limoges, France, where he is now full professor of mathematics.
He is also director of the mathematics and security information department of the XLIM research institute (UMR CNRS) and head of the MOD team (Modeling, Optimization, Dynamics) at : Springer International Publishing.
Over the past two decades a general mathematical theory of infinite electrical networks has been developed. This is the first book to present the salient features of this theory in a coherent exposition.
Using the basic tools of functional analysis and graph theory, the author presents the fundamental developments of the past two decades and discusses applications to other areas of mathematics.
The first part of the book presents systems of linear ODEs. The text develops mathematical models from ten disparate fields, including pharmacokinetics, chemistry, classical mechanics, neural networks, physiology, and electrical circuits.
The theory of electrical circuits consists of several sub-theories. Predominant mathematical disciplines that arise in the study of electrical circuits are linear algebra, differential equations, functional analysis (Fourier Transform, Laplace Transform) and graph theory. A circuit is a physical system which implements a mathematical function.
Mathematical Models In Electrical Circuits: Theory And Applications è un libro di Marinov C. A., Neittaanmäki Pekka edito da Springer a settembre - EAN puoi acquistarlo sul sitola grande libreria online.
This project entitled “Some Mathematical Models in Circuit Theory ” by NURT9JA meets the requirements governing the award of the degree of Bachelor of Science in Mathematics and is approved for its contribution to knowledge and literary presentation.
Request PDF | Mathematical Models and Numerical Simulation in Electromagnetism | 1 The harmonic oscillator.- 2 The Series RLC Circuit.- 3 Linear electrical circuits.- 4 Maxwell's equations in free.
This book discusses mathematical models for various applications in economics, with a focus on non-linear dynamics. Based on the author’s over 50 years of active work in the field, the book has Author: Tönu Puu.
A mathematical model is a description of a system using mathematical concepts and process of developing a mathematical model is termed mathematical atical models are used in the natural sciences (such as physics, biology, earth science, chemistry) and engineering disciplines (such as computer science, electrical engineering), as well as in the social sciences (such.Mathematical Foundations for Linear Circuits and Systems in Engineering is written for upper undergraduate and first–year graduate students in the fields of electrical and mechanical engineering.
This book is also a reference for electrical, mechanical. Mathematical neuroscience: from neurons to circuits to systems Boris Gutkin, David Pinto *, Bard Ermentrout Division of Biology and Medicine, Department of Neuroscience, Brown University, Providence, RI, USA Abstract Applications of mathematics and computational techniques to our understanding of neuronal systems are ion.